C Tracer Evidence for Synthesis of Choline and Betaine via Phosphoryl Base Intermediates in Salinized Sugarbeet Leaves

Abstract

Like other chenopods, sugarbeets (Beta vulgaris L. cv Great Western D-2) accumulate glycine betaine when salinized; this may be an adaptive response to stress. The pathway of betaine synthesis in leaves of salinized (150-200 millimolar NaCl) sugarbeet plants was investigated by supplying [(14)C]formate, phosphoryl[(14)C]monomethylethanolamine ([(14)C][unk] MME) or phosphoryl[(14)C]choline ([(14)C][unk] choline) to leaf discs and following (14)C incorporation into prospective intermediates. The (14)C kinetic data were used to develop a computer model of the betaine pathway.When [(14)C]formate was fed, [unk] MME, phosphoryldimethylethanolamine ([unk] DME) and [unk] choline were the most prominent methylated products at short labeling times, after which (14)C appeared in free choline and in betaine. Phosphatidylcholine labeled more slowly than [unk] choline, choline, and betaine, and behaved as a minor end product. Very little (14)C entered the free methylethanolamines. When [(14)C][unk] MME was supplied, a small amount was hydrolyzed to the free base but the major fate was conversion to [unk] DME, [unk] choline, free choline, and betaine; label also accumulated slowly in phosphatidylcholine. Label from supplied [(14)C][unk] choline entered choline and betaine rapidly, while phosphatidylcholine labeled only slowly and to a small extent.These results are consistent with the pathway [unk] MME -->[unk] DME --> [unk] choline --> choline --> --> betaine, with a minor side branch leading from [unk] choline into phosphatidylcholine. This contrasts markedly (a) with the pathway of stress-induced choline and betaine synthesis in barley, in which phosphatidylcholine apparently acts as an intermediate (Hitz, Rhodes, Hanson 1981, Plant Physiol 68: 814-822); (b) with choline biogenesis in mammalian liver and microorganisms. Computer modeling of the experimental data pointed strongly to regulation at the [unk] choline --> choline step, and also indicated that the rate of [unk] choline synthesis is subject to feedback inhibition by [unk] choline.